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Natural molecules or derivatives make up more than half of the current drugs on the market with applications to nearly every disease known to humans. Salicylic acid, morphine, cannabinoids and insulin are a few examples. Our specialty is in producing these, and new targets, using a fast and scalable platform based on engineered microbes.
Founded in 2017, Unlearn.AI brings together a world-class team of experts across pharma, physics, machine learning, and business who share a vision of pioneering AI to eliminate trial and error in medicine. Unlearn is the only company creating TwinRCTsTM, which combine AI, prognostic digital twins, and novel statistical methods to run clinical trials requiring fewer patients in the control arm. Unlearn`s technology is used by leading global pharmaceutical companies, including Merck KGaA, Darmstadt, Germany, and has been published in conference abstracts and scientific journals, including Scientific Reports - Nature and The International Journal of Biostatistics. The European Medicines Agency qualifies Unlearn`s PROCOVA™ procedure, which provides the regulatory framework for the application of TwinRCTs to Phase 2 and 3 clinical trials.
Waste Reduction is a Indianapolis, IN-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
Roche NimbleGen is a Madison, WI-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
Kadmon is a fully integrated biopharmaceutical company engaged in the discovery, development and commercialization of small molecules and biologics to address disease areas of significant unmet medical need. We are developing product candidates within autoimmune and fibrotic diseases, oncology and genetic diseases. We leverage our multi-disciplinary research and clinical development team members, who prior to joining Kadmon had brought more than 15 drugs to market, to identify and pursue a diverse portfolio of novel product candidates, both through in-licensing products and employing our small molecule and biologics platforms. We utilize our advanced understanding of the molecular mechanisms of disease to establish development paths for disease areas where significant unmet medical needs exist.